Multi-phase stator device

Abstract

Disclosed is a stator device adapted to be arranged in an electrical machine, where the electrical machine further comprises a moving device,where the stator device is a multi-phase stator device, where the phases are arranged side-by-side in a direction perpendicular to direction of motion of the moving device, and where each phase comprises a first stator core section having a set of teeth, a second stator core section having a set of teeth, and a coil, and where the teeth are arranged to protrude towards the moving device; andwherein at least two neighboring phases share a stator core section, so that the first stator core section of a first phase and a second stator core section of a second phase is formed as a single unit.

Description

FIELD OF THE INVENTION[0001]This invention generally relates to electric machines. More particularly, the invention relates to a rotating or linearly moving three-phase transverse flux machine with a permanent magnet rotor or mover structure. This type of machine could be utilized either as a motor or a generator depending on the area of application. A linearly moving machine may also be denoted a linear machine, a transversally moving machine or a translational moving machine.BACKGROUND OF THE INVENTION[0002]The transverse flux machine (TFM) topology is an example of a modulated pole machine. It is known to have a number of advantages over conventional machines. The basic design of a single-sided radial flux stator is characterized by a single, simple phase winding parallel to the air gap and with a more or less U-shaped yoke section surrounding the winding and exposing in principal two parallel rows of teeth's facing the air gap. The state-of-art multi-phase arrangement is charact...

AI Technical Summary

Benefits of technology

[0017]Hence, teeth of neighbouring phases magnetically function as a common set of teeth that are common to the two neighbouring / adjacent phases, and that are magnetically shared by the two neighbouring / adjacent phases. The moving device and the stator device each have a simple construction involving few parts. The parts of the moving device each have a simple geometric shape, thus allowing efficient and cost-effective construction.

[0044]Thus a modulated pole machine will show its largest advantage in circumstances where the pole number is high and the possible electric loading using conventional coils is low.

Problems solved by technology

A conventional, balanced 120 degree phase shift, three-phase sinusoidal or trapezoidal drive scheme does not fully engage the core magnetically during the time cycling of operation, and therefore a significant part of the total stator core volume is constantly inefficiently used.

It remains a problem to optimize performance numbers or values, such as torque pr. volume and / or torque pr. current.

Furthermore, an even number of phases may also be provided, but may not be as advantageous as an odd number of phases, as described above.

Leakage may occur when the claws overlap each other, since these overlapping faces may provide an unwanted path for leakage flux.

Even if claws only stretch to half the phase axial width, they may come in close proximity and that may cause a lot of unwanted magnetic leakage, so only small or minor claws should be used when using combined phases.

Thus it is possible to use minor claws, defined as semi-claw poles, to adjust the pole tip area but the claws may not be able to overlap axially since the phase shift of the combined phases hinders the free extension of claws across the stators axial extension.

Images